• Journal of Mechanical Science and Technology
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• 제18권6호
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• pp.972-978
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• 2004

Forward slip is an important parameter often used in rolling-speed control models for tandem hot strip rolling mills. In a hot strip mill, on-line measurement of strip speed is inherently very difficult. Therefore, for the set-up of the finishing mill, a forward slip model is used to calculate the strip speed from roll circumferential velocity at each mill stand. Due to its complexity, most previous researches have used semi-empirical methods in determining values for the forward slip. Although these investigations may be useful in process design and control, they do not have a theoretical basis. In the present study, a better forward slip model has been developed, which provides for a better set-up and more precise control of the mill. Factors such as neutral point, friction coefficient, width spread, shape of deformation zone in the roll bite are incorporated into the model. Implementation of the new forward slip model for the control of a 7-stand hot strip tandem rolling mill shows significant improvement in roll speed set-up accuracy.

• 한국석유지질학회지
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• 제1권1호
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• pp.15-27
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• 1993

한반도 동해 대륙주변부에서 취득한 에어건 탄성파 탐사자료에 의하면, 이 지역에는 포항-영덕분지, 묵호분지, 후포분지 등, 세 개의 주요 신제삼기 퇴적분지가 대륙붕 및 대륙사면에 형성되어 있다. 이들 퇴적분지에서의 탄성파층서 및 구조분석 결과, 분지의 형성과 퇴적물 충진은 주향이동신장성(transtensional) 및 차후의 압축성(contractional) 광역지구조운동과 밀접한 관계를 갖고 있는 것으로 보인다. 동해 후열도분지가 확장되기 시작하던 올리고세와 전기 마이오세 동안, 한반도 동해 대륙주변부에는 신장성 전단력(tensional shear stress)이 작용하여 후포단층과 양산단층을 따라 우수주향이동 단 층운동이 일어났으며, 이들 평행한 두 단층 사이의 중첩부에는 당겨열림작용(pull-apart opening)에 의해 포항-영덕 분지가 형성되었다. 한편, 한국대지(Korea Plateau)와 접한 동해 대륙주변부에서는 블럭단층운동으로 인해 융기된 고기저(basement highs) 사이에 묵호분지가 형성되었다. 그 후 중기 마이오세 말에 동해가 닫히기 시작하면서, 연구지역의 응력장은 신장성에서 압축성으로 전환되었으며, 후기 마이오세와 전기 플라이오세, 두 번에 걸쳐 지각변형이 일어나면서 분지를 충진한 퇴적층이 변형되었고, 일부지역에서는 융기가 일어났다. 특히, 전기 플라이오세 동안에는 후포단층이 사교이동양상(oblique-slip sense)을 보이면서 재활성화 되었으며, 이로 인해 반지구(half-graben)형태의 후포분지가 형성되었다.

• 대한전기학회논문지:전기기기및에너지변환시스템부문B
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• 제53권9호
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• pp.532-537
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• 2004

Shrink fitting is often a conventional mechanical fasteners and fastening methods with temperature difference. Localized heating of the material surface provides temporary expansion and allows slip fit assembly. The resulting interference fit exhibits exceptional strength without surface deformation at ambient temperatures. We studied an analysing method to find out a deformation of motor axis as variation of constrained method with shrink fitting.

• 한국지진공학회논문집
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• 제18권4호
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• pp.161-170
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• 2014

Newmark-type deformation analysis has rarely been done in Korea due to the popularity of simple pseudo-static limit equilibrium analysis and detailed time-history FE/FD dynamic analysis. However, the Korean seismic dam design code updated in 2011 prescribes Newmark-type deformation analysis as a major dynamic analysis method for the seismic evaluation of fill dams. In addition, a design PGA for dynamic analysis is significantly increased in the code. This paper aims to study the seismic evaluation of four existing large fill dams through advanced FEM/Newmark-type deformation analyses for the artificial earthquake time histories with the design PGA of 0.22g. Dynamic soil properties obtained from in-situ geo-physical surveys are applied as input parameters. For the FEM/Newmark analyses, sensitivity analyses are performed to study the effects of input PGA and $G_{max}$ of shell zone on the Newmark deformation. As a result, in terms of deformation, four fill dams are proved to be reasonably safe under the PGA of 0.22g with yield coefficients of 0.136 to 0.187, which are highly resistant for extreme events. Sensitivity analysis as a function of PGA shows that $PGA_{30cm}$ (a limiting PGA to cause the 30 cm of Newmark permanent displacement on the critical slip surface) is a good indicator for seismic safety check. CFRD shows a higher seismic resistance than ECRD. Another sensitivity analysis shows that $G_{max}$ per depth does not significantly affect the site response characteristics, however lower $G_{max}$ profile causes larger Newmark deformation. Through this study, it is proved that the amplification of ground motion within the sliding mass and the location of critical slip surface are the dominant factors governing permanent displacements.

• 한국지반공학회:학술대회논문집
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• 한국지반공학회 1991년도 추계학술발표회 논문집 지반공학에서의 컴퓨터 활용 COMPUTER UTILIZATION IN GEOTECHNICAL ENGINEERING
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• pp.34-46
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• 1991

The slope stabi1ity analyses for Carsington dam were performed by using the computer program STABL and PC-SLOPE. The slip surface predicted by STABL can differ from the true slip surface. This is due to the characteristics of searching technique of the program STABL. Hence various possible potential slip surfaces must be examined using the program STABL. Various methods of analysis are employed in the program PC-SLOPE. A resonable factor of safety can be obtained by comparing the various values, and the potential slip surface can be predicted well relatively. The shear strength parameters of ctitical or residual state must be investigated as well as the peak strength for the case of the Carsington dam, where the deformation took place over long periods.

• 한국산업융합학회 논문집
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• 제24권4_2호
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• pp.501-507
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• 2021

In this study, In order to prevent the safety accidents caused by the sliding, to develop the non-slip grating, the stability judgment based on the span length of the grating and the gap of the bearing bar is performed. The structural analysis of Grating was carried out in accordance with the provisions set out in Grating's load-bearing test conditions. As the span length increases, the deflection increases and the stress and span length tend to be proportional to each other. It was shown that the larger the span, the linear increase in stress and exponential increase in deformation of grating. The maximum stress of grating was approximately 58.2 MPa, indicating a very stable safety rate of about 4.3 compared to the yield strength of the grating material. Based on these results, it will be able to be utilized as the basic data for determining the optimal dimensions of non-slip grading by performing optimal designs in the future.

• Coupled systems mechanics
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• 제7권5호
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• pp.583-610
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• 2018

This paper discusses the issues associated with modeling frictional contact between solid bodies undergoing large deformations. The most common model for friction on contact interfaces in solid mechanics is the Coulomb friction model, in which two distinct responses are possible: stick and slip. Handling the transition between these two phases computationally has been a source of algorithmic instability, lack of convergence and non-unique solutions, particularly in the presence of large deformations. Most computational models for frictional contact have used penalty or updated Lagrangian approaches to enforce frictional contact conditions. These two approaches, however, present some computational challenges due to conditioning issues in penalty-type implementations and the iterative nature of the updated Lagrangian formulation, which, particularly in large simulations, may lead to relatively slow convergence. Alternatively, a plasticity-inspired implementation of frictional contact has been shown to handle the stick-slip conditions in a local, algorithmically efficient manner that substantially reduces computational cost and successfully avoids the issues of instability and lack of convergence often reported with other methods (Laursen and Simo 1993). The formulation of this approach, however, has been limited to the small deformations realm, a fact that severely limited its application to contact problems where large deformations are expected. In this paper, we present an algorithmically consistent formulation of this method that preserves its key advantages, while extending its application to the realm of large-deformation contact problems. We show that the method produces results similar to the augmented Lagrangian formulation at a reduced computational cost.

• Steel and Composite Structures
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• 제31권6호
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• pp.591-600
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• 2019

Based on the energy-variational principle, a coupling vibration analysis model of high-speed railway simply supported beam bridge-track structure system (HSRBTS) was established by considering the effect of shear deformation. The vibration differential equation and natural boundary conditions of HSRBTS were derived by considering the interlayer slip effect. Then, an analytic calculation method for the natural vibration frequency of this system was obtained. By taking two simply supported beam bridges of high-speed railway of 24 m and 32 m in span as examples, ANSYS and MIDAS finite-element numerical calculation methods were compared with the analytic method established in this paper. The calculation results show that two of them agree well with each other, validating the analytic method reported in this paper. The analytic method established in this study was used to evaluate the natural vibration characteristics of HSRBTS under different interlayer stiffness and length of rails at different subgrade sections. The results show that the vertical interlayer compressive stiffness had a great influence on the high-order natural vibration frequency of HSRBTS, and the effect of longitudinal interlayer slip stiffness on the natural vibration frequency of HSRBTS could be ignored. Under different vertical interlayer stiffness conditions, the subgrade section of HSRBTS has a critical rail length, and the critical length of rail at subgrade section decreases with the increase in vertical interlayer compressive stiffness.

• Nuclear Engineering and Technology
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• 제2권3호
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• pp.163-178
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• 1970

닉켈기 내열합금의 일종인 Rene 41을 76$0^{\circ}C$ 및 87$0^{\circ}C$에서 최고 9300 시간까지 시효열처리한 다음, 5% 내지 20%로 압축변형시켜, 이 합금의 실온에서의 소성변형방식 및 석출입자인 ${\gamma}$'입자와 slip line 간의 상호작용을 전자현미경적 방법으로 관찰연구하였다. 본합금의 slip구조는 $\alpha$황동때와 유사하게｛111｝<110>계에 속하는 단일 slip line으로 구성되어 있었으며, 순알루미늄에서 관찰되는 층상구조는 볼 수 없었다. 또한, slip 구조는 시효조건에 따라 변화한다는 것을 알 수 있었다. 미시효상태뿐만 아니라 과시효상태에 있어서도 Slip line은 여전히${\gamma}$' 석출입자를 통과하였으며, 이 때 석출입자는 지금과 더불어 변형되는 것을 볼 수 있었다. 이 관찰결과를 앞서 발표된 자료와 비교 검토하여 과시효상태에서도 ${\gamma}$'입자는 적어도 일부 지금과 정합되어 있다는 결론을 얻었다.

• 한국소성가공학회:학술대회논문집
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• 한국소성가공학회 2007년도 춘계학술대회 논문집
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• pp.114-117
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• 2007

In the present study, the effects of initial texture on the twinning formation of AZ31 Mg rolled sheet was investigated. Uniaxial compression tests were performed on samples cut along the normal direction and rolling direction of rolled AZ31 Mg alloy sheet at various temperatures (RT, 200, 250, 300, 350, $400^{\circ}C$) with the 0.01/s strain rate. Pole figure of rolling planes showed that basal planes of most gain were located parallel to the rolling direction. After compression test, microstructures and stress-strain curves results indicated that active deformation twining occurred only at the specimen cut along the rolling direction. The slip-twin transition with the increase of temperature was also investigated.